A new basic air shower observable sensitive to the cosmic-ray elemental mass
Abstract
Based on a Monte Carlo simulation study of vertical extensive air showers (EAS) at the KASCADE location we introduce a new simple observable η(45;310) (in short η) - the ratio between two lateral electron densities of an EAS measured at two well-defined radial distances indicated by the characteristic radial feature of the local age parameter (LAP). Our analyses of simulated data generated by the Group I nuclei with cosmic-ray elemental masses, Aactual=1,4,12,16,24,32,40,56, observed a double correlation of η with, (i) the lateral shower age sav, and (ii) Aactual of the EAS initiating primary particle. Applying the first correlation to a new set of simulated showers initiated by the Group II nuclei with Aactual=7,14,20,28,40,52, the average difference between the lateral shower age sav obtained directly from the conventional LAP approach and the estimated one sest is found to be close to 0. The second correlation involving η with Aactual applied to the set of such showers estimates the average atomic mass <Aest> of their shower initiating primaries, utilizing the ηs. Results of the work revealed that the method of estimating the lateral shower age is almost high-energy interaction model-independent. A certain level of model dependence is albeit found in the case of <Aest> estimation.
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